All-plastic support for rotating head owl

ABSTRACT

A scarecrow including a scarecrow body corresponding generally in shape to a body of a live animal; and a scarecrow head corresponding in shape to a head of a live animal; and an unstable mount disposed between the scarecrow body and the scarecrow head onto which the scarecrow head is rotatably mounted for 360-degree movement of the scarecrow head to the scarecrow body without interfering with free movement of the scarecrow head. The unstable mount includes a lower pivot assembly rigidly connected to the scarecrow body and an upper pivot assembly rigidly connected to the scarecrow head and balanced onto the lower pivot assembly, the lower pivot assembly being of two-piece molded plastic construction and including a foot and an upper member that press-fit together, with the foot configured to press-fit install into the scarecrow body.

FIELD

This disclosure relates to the field of scarecrows and particularly plastic owls having movable heads. More particularly, the disclosure relates to head and head support structures for scarecrow devices that simplifies assembly.

BACKGROUND

Improvement is desired in the structure and assembly of scarecrow devices and the like of the type having a head that moves or rotates relative to a body.

Successful designs utilized commercially in owl scarecrows utilize a head that is movably mounted to an owl body by an unstable mount. One design utilizes wind currents and the like to move the head relative to the body and another design has intermittent powered movement, such owls being available from Dalen Products, Inc. of Knoxville, Tenn., and described in U.S. Pat. Nos. 5,901,491; 8,171,875; and 7,966,963 all assigned to Dalen Products, Inc.

While the designs of such owl devices provide a desired appearance of the owl and movement of the head, the assembly of the devices requires skill and is time consuming. The present disclosure advantageously provides improved structures for the head and the unstable mount that provide advantages over the prior structures and simplify assembly, and result in other product improvements.

SUMMARY

The above and other needs are met by a scarecrow having an unstable mount of improved construction.

In one aspect, a scarecrow according to the disclosure includes a body corresponding generally in shape to a body of a live animal; and a head corresponding in shape to a head of a live animal; and an unstable mount disposed between the body and the head onto which the head is rotatably mounted for 360-degree movement of the head to the body without interfering with free movement of the head.

The unstable mount includes a lower pivot assembly rigidly connected to the body and an upper pivot assembly rigidly connected to the head and balanced onto the lower pivot assembly, the lower pivot assembly being of two-piece molded plastic construction and including a foot and an upper member that press-fit together, with the foot configured to press-fit install into the body.

In another aspect, a method of assembling a scarecrow includes the steps of: providing a scarecrow body corresponding generally in shape to a body of a live animal and having an upwardly facing aperture; providing a scarecrow head corresponding in shape to a head of a live animal; providing an unstable mount comprising a lower pivot assembly having a barbed foot and an upper pivot assembly; installing the lower pivot assembly onto the scarecrow body by press fitting the foot into the upwardly facing aperture of the scarecrow body; installing the upper pivot assembly onto the scarecrow head; and balancing the upper pivot assembly with the scarecrow head onto the lower pivot assembly installed onto the scarecrow body.

BRIEF DESCRIPTION OF THE DRAWINGS

Further advantages of the disclosure are apparent by reference to the detailed description when considered in conjunction with the figures, which are not to scale so as to more clearly show the details, wherein like reference numbers indicate like elements throughout the several views, and wherein:

FIG. 1 is an exploded perspective view of a rotating head owl according to the disclosure.

FIG. 2 is a closeup view showing mounting of a head of the owl of FIG. 1 to an unstable mount.

FIGS. 3-7 show the unstable mount of the owl of FIG. 1.

FIG. 8 is an exploded perspective view of an alternative embodiment of a rotating head owl according to the disclosure.

FIG. 9 is a closeup view showing mounting of a head of the owl of FIG. 8 to an unstable mount.

FIGS. 10-11 are assembled views of an unstable mount and associated structure that enables electrically powered movement of the head of the owl of FIG. 8.

DETAILED DESCRIPTION

With initial reference to FIGS. 1 and 2, there is shown a scarecrow 10 having a scarecrow body 12 and a balanced scarecrow head 14 located above the body 12, a lower pivot assembly 16 rigidly connected to the body 12, and an upper pivot assembly 18 rigidly connected to the head 14 and balanced onto the lower pivot assembly 18. FIGS. 3-7 show the lower pivot assembly 16 and the upper pivot assembly.

The scarecrow 10 shown in FIGS. 1 and 2 is non-motorized. Another embodiment of a motorized scarecrow is shown in FIGS. 8-11. The scarecrow 10 is configured as a great-horned owl, but it will be appreciated that the scarecrow may be configured as other birds and other animals.

The scarecrow body 12 corresponds to the body of the owl replicas described in U.S. Pat. No. 5,901,491, entitled “Owl With Movable Head,” issued May 11, 1999, U.S. Pat. No. 7,966,963, entitled “Owl With Intermittent Powered Movement,” issued Jun. 28, 2011, and U.S. Pat. No. 8,171,875, entitled “Owl With Intermittent Powered Movement,” issued May 8, 2012, each incorporated by reference herein in its entirety. In this regard, the body 12 externally resembles the shape and appearance of the body of a live owl. The body 12 includes a concave upper surface 12 a to receive a lower portion 14 c of the head 14 so that the head 14 is countersunk into the body 12 to enhance the realistic appearance of the replica and to avoid diminishment of this appearance during movement of the head 14.

The scarecrow head 14 is provided by a front face portion 14 a and a rear head portion 14 b that assemble and matingly engage one another to provide the head 14. The head 14 in the assembled state corresponds externally in shape to the head of a live owl. The assembled head 14 is generally hollow and globe-shaped. The head 14 has an aperture 14 d adjacent the lower portion 14 c of the head 14.

The heads of the owl structures of the noted U.S. Pat. Nos. 5,901,491; 8,171,875; and 7,966,963 are of one-piece construction. Such heads of one-piece construction have are difficult to balance and to attach to pivot components, requiring considerable time and skill. For example, attempts to balance a one-piece head typically involves trial and error placement of metal weights using adhesive or the like. Also, connection of the head to the pivot components is also difficult, as the only access is through the relatively small opening at the bottom of the one-piece head. The heads are also difficult to uniformly mold and require substantial post-molding labor, such as the removal of excess plastic in addition to balancing and installation problems as noted.

A key aspect of the scarecrow 10 resides in the configuration of the head 14 with a two-piece head, namely, the front face portion 14 a and the rear head portion 14 b, with the two-pieces of the head configured so that the assembled head is substantially balanced as molded and assembled without the need for adding on weights. This avoids cumbersome and time-consuming balancing associated with prior one-piece heads. Also, the two-piece head 14 is much easier to install on the pivot components. For example, as shown in FIGS. 1 and 2, the rear head portion 14 b is installed onto the upper pivot assembly 18 and then the front face portion 14 b may be press-fit onto the rear head portion 14 b which greatly simplifies installation of the upper pivot assembly 18 onto the head 14.

A plastic mouth or beak 20 a and plastic eyes 20 b are installed into corresponding receivers 14 e and 14 f, respectively, formed on the front face portion 14 a. The front face portion 14 a advantageously provides a structure that has a flattened profile and this profile facilitates automated insertion of the beak 20 a and eyes 20 b. The automated insertion of beak 20 a and eyes 20 b is difficult with a one-piece head and is generally done by hand. It will be appreciated that the beak and the eyes may be formed with the front face portion 14 a during molding, but, the realistic appearance of separately molded mouths/beaks and eyes is generally better.

The front face portion 14 a and the rear head portion 14 b have cooperating connectors 22 that matingly engage one another in press-fit relationships to facilitate tool-less assembly of the head 14. One advantage of the two-piece molded head design includes a significant reduction in the labor needed to remove excess plastic around head after molding.

The rear head portion 14 b is larger and heavier than the front face portion 14 a and the weight of each is adjusted in the molds so that the resulting assembled head 14 having the beak 20 a and eyes 20 b is substantially balanced upon molding and assembly. The portions 14 a and 14 b are unequal which is advantageous to facilitate automated removal from their molds. The thickness of the front face portion 14 a is generally uniform, with a preferred thickness of about 0.060 inches.

The rear head portion 14 b has a uniform thickness, except it is molded to include thickened areas 14 bb preferably on the interior of the rear head portion 14 b to add additional weight to these areas of the rear head portion 14 b. The thickened areas 14 bb are desirably located to be across from the locations of the beak 20 a and the eyes 20 b that are added to the assembled head 14. The weights of the thickened areas 14 bb are selected to correspond to the weights of the beak 20 a and the eyes 20 b to enable the head 14 to be substantially balanced when assembled and placed on the body 12 using the pivot assemblies 16 and 18.

The two-piece head 14 as described is advantageously configured so that the head 14 is substantially balanced as molded and assembled without the need for adding weights or the like after assembly. This avoids cumbersome and time-consuming balancing associated with prior one-piece heads. Also, the two-piece head 14 is much easier to install because the rear head portion 14 b is easily installed onto the upper pivot assembly 18 and then the front face portion 14 b may be press-fit onto the rear head portion 14 b. As will be appreciated, this is much simpler than trying to install a pivot component onto a one-piece head blindly through a hole at the bottom of the head. Furthermore, it provides for reliable desired mounting of the head 14 onto the upper pivot assembly 18 at a desired location of the rear head portion 14 b. This consistent positioning of the upper pivot assembly 18 also serves to facilitate balancing of the head 14 in a manufacturing process versus the variances experienced with one-piece heads.

The lower pivot assembly 16 and the upper pivot assembly 18 cooperate to provide an unstable mount suitable to movably mount the head 14 to the body 12 so that the head 14 is freely movable in a rotational, back-and-forth, and side-to-side relationship relative to the body 12. Movement of the head 14 relative to the body 12 may be generated as by slight air movement to cause circular rotational movement of the head 14, in addition to nodding and/or rocking movement of the head 14 to imitate head movements of a live owl to provide a deterrent effect on garden pests of the type commonly preyed upon by owls.

The improved balance of the head 14 achieved by the described two-piece construction of the head 14 and simplified installation has been observed to provide improvements in movement of the head 14. That is, the better balance of the head 14 enables disruption of the resting stability of the head 14 to be achieved by very slight air movement, resulting in enhanced movement of the head 14.

The lower pivot assembly 16 and the upper pivot assembly 18 are also improved over pivot assemblies of the noted U.S. Pat. Nos. 5,901,491; 8,171,875; and 7,966,963.

In particular, the lower pivot assembly 16 is configured to be of plastic construction and to press-fit together and to press-fit install to the body 12 of the scarecrow 10. This eliminates substantial time and skill in assembling the scarecrow 10, as well as substantially reducing component costs.

With additional reference to FIGS. 3-7, the lower pivot assembly 16 is of two-piece molded plastic construction and includes a foot 16 a and an upper member 16 b that press-fit together, with the foot 16 a configured to press-fit install into the body 12.

The foot 16 a is of molded one-piece construction and includes a lower barbed end 16 c and an upper ribbed end 16 d, with a washer or stop 16 e centrally located between the lower barbed end 16 c and the upper ribbed end 16 d. The lower barbed end 16 c is configured to be press-fit into a bore or aperture of a top portion of the body 12, with the barbs providing a tight fit and inhibiting removal. The stop 16 e abuts the top portion of the body 12 and limits further passage of the foot 16 a through the aperture of the top portion of the body 12. The upper ribbed end 16 d of the foot 16 a is configured to be press-fit into the upper member 16 b to fixedly assemble the foot 16 a to the upper member 16 b.

The upper member 16 b is of one-piece construction and includes a cylindrical body 16 f having a lower open end 16 g that includes ribs 16 h configured to frictionally engage with the upper ribbed end 16 d of the foot 16 a to fixedly install the foot 16 a onto the upper member 16 b in a press-fit relationship. A cup 16 i is formed at the upper end of the cylindrical body 16 f. The cup 16 i may include flexion slots 16 j to facilitate assembly with the upper pivot assembly 18. The exterior surface of the cup 16 i is shown with a rugous exterior surface. The rugous surface is desired for use with the motorized scarecrow is shown in FIGS. 8-11, but is not needed for the non-motorized embodiment of FIGS. 1-2. However, for the sake of a single part for both, the rugous surface may be included as shown. A needle 16 k is provided to extend vertically from the center of the cup 16 i to cooperate with the upper pivot assembly 18. The needle 16 k may be plastic and molded as part of the cup 16 i, or may be a separate piece, such as a metal needle press-fit into a bore or other receiver of the cup 16 i

With continuing reference to FIGS. 3-7, the upper pivot assembly 18 is of molded plastic construction and includes an elongate pivot member 18 a having an interior pivot surface 18 b located at the lower end of the pivot member 18 a (FIG. 2) and positionable in contact with the upper end of the needle 16 k so that the upper pivot assembly 18 is pivotally and movably seated onto the lower pivot assembly 16.

A washer or stop 18 c is formed to surround the lower end of the pivot member 18 a and sized to be snap-fit into the cup 16 i of the lower pivot assembly 16. The flexion slots 16 j of the cup 16 i enable the upper end of the cup 16 i to expand to receive the stop 18 c. The upper end of the cup 16 i is sized to retain the 18 c from passing back out of the cup 16 i unless a removal force is applied. Thus, the washer 18 c and the cup 16 i cooperate to maintain the upper pivot assembly 18 movably and pivotally seated onto the lower pivot assembly 16.

A head 18 d is formed on the uppermost end of the pivot member 18 a for mounting the rear head portion 14 b to the upper pivot assembly 18. The head 18 d includes a mount 18 e that fits into a corresponding depression 14 g or other receiver formed on the interior of the rear head portion 14 b. If desired, adhesive or the like may be added to secure the mount 18 e to the depression 14 g. The mount 18 e and the depression 14 e provide repeatable attachment locations to provide convenient and consistent mounting of the head 14 to the upper pivot assembly 18 that aids in providing a balanced head mount during manufacture.

Turning now to FIGS. 8-11, there is shown another embodiment of a motorized scarecrow 30. The scarecrow 30 includes the body 12, the head 14 and the lower pivot assembly 16 substantially as described for the scarecrow 10. However, instead of the described upper pivot assembly 18, the scarecrow 30 includes a motorized upper pivot assembly 32 and an electromechanical assembly 34.

The electromechanical assembly 34 enables intermittent electrically powered movement of the head 14 relative to the body 12 and does not interfere with any free movement of the head 14 provided by the lower pivot assembly 16 and the upper pivot assembly 32. The upper pivot assembly 32 and the electromechanical assembly 34 may be provided by the upper pivot assembly 18 and the electromechanical assembly 20 described in the noted U.S. Pat. Nos. 8,171,875 and 7,966,963.

The upper pivot assembly 32 operates in a manner similar to that of the upper pivot assembly and similarly includes a pivot member 32 a having a pivot surface located at the lower end of the pivot member 32 a and positionable in contact with the upper end of the needle 16 k so that the upper pivot assembly 32 is pivotally and movably seated onto the lower pivot assembly 16. An upper end of the pivot member 32 a connects to a solar cell located in a solar cell housing 34 a associated with the electromechanical assembly 34, which fixedly connects to the rear head portion 14 b. In this regard, it will be appreciated that the rear head portion 14 b is configured to be mounted on the solar cell housing 34 a.

The electromechanical system 34 includes as major components an electrical power source, provided as by the solar cell in the housing 34 a, an electrical power storage device, provided as by a capacitor 34 b, an electronic actuator, provided as by a solenoid 34 c controlled by a timer circuit located on a printed circuit board, and a kicker 34 d connected to the solenoid 34 c. The circuit board may be of any design suitable for providing a desired function of the kicker, and preferably corresponds to the circuit board shown and described in the noted U.S. Pat. Nos. 8,171,875 and 7,966,963, incorporated herein by reference in their entireties.

The solar cell located in the housing 34 a and the capacitor 34 b as controlled by the timer circuit enables intermittent or periodic operation of the solenoid 34 c. The kicker 34 d is connected to the solenoid 34 c and activation of the solenoid results in movement of the kicker 34 d. The kicker 34 d is located and configured when moved to strike the spherical sidewall of the cup 16 i of the lower assembly 16 to impart motion to the head 14.

The foregoing description of preferred embodiments for this disclosure has been presented for purposes of illustration and description. It is not intended to be exhaustive or to limit the disclosure to the precise form disclosed. Obvious modifications or variations are possible in light of the above teachings. The embodiments are chosen and described in an effort to provide the best illustrations of the principles of the disclosure and its practical application, and to thereby enable one of ordinary skill in the art to utilize the disclosure in various embodiments and with various modifications as are suited to the particular use contemplated. All such modifications and variations are within the scope of the disclosure as determined by the appended claims when interpreted in accordance with the breadth to which they are fairly, legally, and equitably entitled. 

The invention claimed is:
 1. A scarecrow, comprising: a scarecrow body corresponding generally in shape to a body of a live animal; and a scarecrow head corresponding in shape to a head of a live animal; and an unstable mount disposed between the scarecrow body and the scarecrow head onto which the scarecrow head is rotatably mounted for 360-degree movement of the scarecrow head to the scarecrow body without interfering with free movement of the scarecrow head, the unstable mount comprising a lower pivot assembly rigidly connected to the scarecrow body and an upper pivot assembly rigidly connected to the scarecrow head and balanced onto the lower pivot assembly, the lower pivot assembly being of two-piece molded plastic construction and including a foot and an upper member press-fit together, with the foot being of molded one-piece construction, with a lower barbed end and an upper ribbed end, with a stop centrally located between the lower barbed end and the upper ribbed end for abutting the scarecrow body, and being press-fit installed into the upper member.
 2. The scarecrow of claim 1, wherein the upper member of the unstable mount includes a cylindrical body having a lower open end configured to frictionally engage with the upper end of the foot to fixedly install the foot onto the upper member of the unstable in a press-fit relationship.
 3. The scarecrow of claim 1, wherein the scarecrow head comprises an assembled and balanced hollow head of molded plastic construction corresponding in shape to a head of the live animal, the assembled and balanced head comprising a front face portion connected to a rear head portion, the front face portion having a first thickness and the rear head portion having a second thickness, the front face portion and the rear head portion being unequal in weight, with the rear head portion having selected areas on an interior surface thereof that are thicker than the first thickness and define an offset weight so that the assembled head is substantially balanced as assembled.
 4. The scarecrow of claim 3, wherein the front face portion includes a mouth receiver and eye receivers, a mouth having a weight and installed into the mouth receiver and eyes each having a weight and installed into the eye receivers, the offset weight of the thickened areas substantially corresponding to the weights of the mouth and the eyes.
 5. The scarecrow of claim 3, wherein the rear head portion and the front face portion are press-fit together.
 6. The scarecrow of claim 1, further comprising an electromechanical assembly operatively associated with the unstable mount and including a powered kicker to intermittently contact the unstable mount to cause movement of the scarecrow head relative to the body.
 7. A method of assembling a scarecrow, comprising the steps of: providing a scarecrow body corresponding generally in shape to a body of a live animal and having an upwardly facing aperture; providing a scarecrow head corresponding in shape to a head of a live animal; providing an unstable mount comprising a lower pivot assembly having a barbed foot and an upper pivot assembly; installing the lower pivot assembly onto the scarecrow body by press fitting the foot into the upwardly facing aperture of the scarecrow body; installing the upper pivot assembly onto the scarecrow head; and balancing the upper pivot assembly with the scarecrow head onto the lower pivot assembly installed onto the scarecrow body. 